Post-Radiation Changes in The Number of Phosphorylated H2ax and Atm Protein Foci in Low Dose X-Ray Irradiated Human Mesenchymal Stem Cells

A. Chigasova, M. Pustovalova, A. Osipov, S.A. Korneva, P.S. Eremin, E. Yashkina, M. Ignatov, Y. Fedotov, N. Vorobyeva, A. N. Osipov
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Abstract

Aim: To study the patterns of changes in the number of foci of phosphorylated DNA double-strand break repair proteins H2AX (γH2AX) and ATM (pATM) in cultured human mesenchymal stem cells (MSCs) 1‒48 hours after exposure to X-ray radiation at doses of 40, 80, 160 and 250 mGy. Material and methods: We used the primary culture of human MSCs, obtained from the collection of LLC “BioloT” (Russia). Cells were irradiated using a RUB RUST-M1 X-ray biological unit (Diagnostika-M LLC, Moscow, Russia) equipped with two X-ray emitters at a dose rate of 40 mGy/min (voltage of 100 kV, an anode current of 8 mA, and a 1.5 mm Al filter) and 4 °C temperature. To quantify the yield of γH2AX and pATM foci immunocytochemical staining was carried out with the use of γH2AX and pATM antibody respectively. Statistical analysis of the obtained data was carried out using the statistical software package Statistica 8.0 (StatSoft). To assess the significance of differences between samples, Student’s t-test was used. Results: It was shown that the kinetics of changes in the number of γH2AX foci after irradiation at doses of 160 and 250 mGy and low (40‒80 mGy) doses are significantly different. In contrast to the significant (50‒60 %) decrease in the number of γH2AX foci observed 6 hours after irradiation at doses of 160 and 250 mGy, after irradiation at low doses, no significant decrease in γH2AX foci was observed at this time point. Analysis of the colocalization of γH2AX foci with pATM foci indicates that the mechanisms for maintaining a high number of γH2AX foci 24‒48 hours after low-dose irradiation are ATM independent. A hypothesis has been put forward to explain the phenomenon of maintaining the number of γH2AX foci 24‒48 hours after irradiation in low doses by replicative stress caused by stimulation of proliferation against the background of hyperproduction of free radicals, resulting in additional formation of DNA double-strand breaks and phosphorylation of H2AX by ATR kinase.
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低剂量 X 射线辐照后人间充质干细胞中磷酸化 H2ax 和 Atm 蛋白灶数量的变化
目的:研究培养的人类间充质干细胞(MSCs)在受到剂量为40、80、160和250 mGy的X射线照射1-48小时后,DNA双链断裂修复蛋白H2AX(γH2AX)和ATM(pATM)磷酸化灶数量的变化规律。材料与方法我们使用了从 "BioloT "有限责任公司(俄罗斯)收集的人类间充质干细胞原代培养物。使用 RUB RUST-M1 X 射线生物装置(Diagnostika-M LLC,俄罗斯莫斯科)对细胞进行辐照,该装置配有两个 X 射线发射器,剂量率为 40 mGy/min(电压为 100 kV,阳极电流为 8 mA,1.5 mm Al 过滤器),温度为 4 °C。为了量化 γH2AX 和 pATM 病灶的产量,分别使用 γH2AX 和 pATM 抗体进行免疫细胞化学染色。使用 Statistica 8.0 (StatSoft) 统计软件包对所得数据进行统计分析。为评估样本间差异的显著性,采用了学生 t 检验。结果结果表明,160 和 250 mGy 剂量与低剂量(40-80 mGy)照射后,γH2AX 病灶数量的变化动力学有显著差异。与 160 和 250 mGy 剂量照射 6 小时后观察到的γH2AX 病灶数量明显减少(50-60%)不同,低剂量照射后,在此时间点未观察到γH2AX 病灶数量明显减少。对 γH2AX 病灶与 pATM 病灶的共定位分析表明,低剂量辐照 24-48 小时后,维持大量 γH2AX 病灶的机制与 ATM 无关。有一种假说认为,低剂量辐照 24-48 小时后γH2AX 病灶数量的维持是由于在自由基产生过多的背景下刺激增殖引起复制应激,导致 DNA 双链断裂和 H2AX 被 ATR 激酶磷酸化。
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来源期刊
Medical Radiology and Radiation Safety
Medical Radiology and Radiation Safety Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
0.40
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0.00%
发文量
72
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